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The Resource Liquid metals : concepts and theory, N..H. March, (electronic resource)
Liquid metals : concepts and theory, N..H. March, (electronic resource)
Resource Information
The item Liquid metals : concepts and theory, N..H. March, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Manitoba Libraries.This item is available to borrow from all library branches.
Resource Information
The item Liquid metals : concepts and theory, N..H. March, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Manitoba Libraries.
This item is available to borrow from all library branches.
 Summary
 Explains the concepts needed to understand the properties of liquid metals
 Language

 eng
 eng
 Extent
 1 online resource (506 p.)
 Note
 Description based upon print version of record
 Contents

 Cover; Halftitle; Title; Copyright; Contents; Preface; 1 Outline; 2 Pair correlation function and structure factor of ions; 2.1 Liquid structure factor; 2.2 OrnsteinZernike direct correlation function; 3 Thermodynamics; 3.1 Simple monatomic fluids; 3.2 Approximate methods; 3.3 Simple liquid metals; 3.4 Specifics; 3.5 Onecomponent plasma as reference liquid; 4 Electron screening and effective ionion interactions; 4.1 Screening of impurity centre in electron liquid; 4.2 Lindhard dielectric function; 4.3 Introduction of exchange and correlation
 4.4 Effective ionion interactions in simple (sp) metals4.5 Structure factor of alkali metals modelled in terms of onecomponent plasma; 5 Interionic forces and structural theories; 5.1 Force equation; 5.2 Simple structural theories; 5.3 Refined structural theories: factorization of triplet correlations; 5.4 Inversion of structure factor to yield effective interionic pair potentials; 6 Statistical mechanics of inhomogeneous systems and freezing theory; 6.1 Singleparticle density related to direct correlation function; 6.2 Freeenergy difference between homogeneous and periodic phases
 6.3 Relation to the hypernettedchain method6.4 Verlet''s rule related to Lindemann''s law of melting; 6.5 Cluster expansion and density functional theory; 6.6 Other approximations; 6.7 Applications; 6.8 Correlation of melting temperature and vacancy formation energy; 6.9 Supercooling of liquid Rb; 7 Electronic and atomic transport; 7.1 WiedemannFranz law and Lorenz number; 7.2 Exact resistivity formula for finiterange spherical potential; 7.3 Weak scattering theory of electrical resistivity; 7.4 Hall coefficient; 7.5 Atomic transport; generalized StokesEinstein relation
 7.6 Selfdiffusion related to shear viscosity at the melting temperature8 Hydrodynamic limits of correlation functions and neutron scattering; 8.1 Selfmotion in liquids and incoherent neutron scattering; 8.2 Frequency spectrum (or spectral function) g(co); 8.3 Van Hove dynamical structure factor S(k, CD); 8.4 Friction constant theory of transport; 8.5 Observation of collective modes; 8.6 HubbardBeeby theory; 8.7 Generalized shear viscosity in liquid Rb; 8.8 Transport in supercooled liquid Rb; 9 Critical behaviour; 9.1 Concept of order parameter
 9.2 Liquidvapour critical point: a secondorder phase transition9.3 OrnsteinZernike theory of static structure; 9.4 Predictions from more general equation of state; 9.5 Critical constants of fluid alkali metals; 9.6 Spinodal curves; 9.7 Dynamics of critical behaviour; 10 Electron states, including critical region; 10.1 Electron states in simple sp metals; 10.2 Electronic structure of nonsimple liquid metals; 10.3 Partition function of a liquid metal; 10.4 Electron states in expanded liquid Hg; 10.5 Band model for electronic structure of expanded liquid caesium; 10.6 Optical properties
 11 Magnetism of normal and especially of expanded liquid metals
 Isbn
 9781316170540
 Label
 Liquid metals : concepts and theory
 Title
 Liquid metals
 Title remainder
 concepts and theory
 Statement of responsibility
 N..H. March
 Language

 eng
 eng
 Summary
 Explains the concepts needed to understand the properties of liquid metals
 Cataloging source
 MiAaPQ
 http://library.link/vocab/creatorDate
 1927
 http://library.link/vocab/creatorName
 March, Norman H.
 Dewey number

 530.4/1
 530.41
 Illustrations
 illustrations
 Index
 index present
 Language note
 English
 LC call number
 QD171
 LC item number
 .M28 1990
 Literary form
 non fiction
 Nature of contents

 dictionaries
 bibliography
 Series statement
 Cambridge monographs on mathematical physics
 http://library.link/vocab/subjectName

 Liquid metals
 Metals
 Label
 Liquid metals : concepts and theory, N..H. March, (electronic resource)
 Note
 Description based upon print version of record
 Bibliography note
 Includes bibliographical references (p. 471486) and index
 Carrier category
 online resource
 Carrier category code
 cr
 Content category
 text
 Content type code
 txt
 Contents

 Cover; Halftitle; Title; Copyright; Contents; Preface; 1 Outline; 2 Pair correlation function and structure factor of ions; 2.1 Liquid structure factor; 2.2 OrnsteinZernike direct correlation function; 3 Thermodynamics; 3.1 Simple monatomic fluids; 3.2 Approximate methods; 3.3 Simple liquid metals; 3.4 Specifics; 3.5 Onecomponent plasma as reference liquid; 4 Electron screening and effective ionion interactions; 4.1 Screening of impurity centre in electron liquid; 4.2 Lindhard dielectric function; 4.3 Introduction of exchange and correlation
 4.4 Effective ionion interactions in simple (sp) metals4.5 Structure factor of alkali metals modelled in terms of onecomponent plasma; 5 Interionic forces and structural theories; 5.1 Force equation; 5.2 Simple structural theories; 5.3 Refined structural theories: factorization of triplet correlations; 5.4 Inversion of structure factor to yield effective interionic pair potentials; 6 Statistical mechanics of inhomogeneous systems and freezing theory; 6.1 Singleparticle density related to direct correlation function; 6.2 Freeenergy difference between homogeneous and periodic phases
 6.3 Relation to the hypernettedchain method6.4 Verlet''s rule related to Lindemann''s law of melting; 6.5 Cluster expansion and density functional theory; 6.6 Other approximations; 6.7 Applications; 6.8 Correlation of melting temperature and vacancy formation energy; 6.9 Supercooling of liquid Rb; 7 Electronic and atomic transport; 7.1 WiedemannFranz law and Lorenz number; 7.2 Exact resistivity formula for finiterange spherical potential; 7.3 Weak scattering theory of electrical resistivity; 7.4 Hall coefficient; 7.5 Atomic transport; generalized StokesEinstein relation
 7.6 Selfdiffusion related to shear viscosity at the melting temperature8 Hydrodynamic limits of correlation functions and neutron scattering; 8.1 Selfmotion in liquids and incoherent neutron scattering; 8.2 Frequency spectrum (or spectral function) g(co); 8.3 Van Hove dynamical structure factor S(k, CD); 8.4 Friction constant theory of transport; 8.5 Observation of collective modes; 8.6 HubbardBeeby theory; 8.7 Generalized shear viscosity in liquid Rb; 8.8 Transport in supercooled liquid Rb; 9 Critical behaviour; 9.1 Concept of order parameter
 9.2 Liquidvapour critical point: a secondorder phase transition9.3 OrnsteinZernike theory of static structure; 9.4 Predictions from more general equation of state; 9.5 Critical constants of fluid alkali metals; 9.6 Spinodal curves; 9.7 Dynamics of critical behaviour; 10 Electron states, including critical region; 10.1 Electron states in simple sp metals; 10.2 Electronic structure of nonsimple liquid metals; 10.3 Partition function of a liquid metal; 10.4 Electron states in expanded liquid Hg; 10.5 Band model for electronic structure of expanded liquid caesium; 10.6 Optical properties
 11 Magnetism of normal and especially of expanded liquid metals
 Dimensions
 unknown
 Extent
 1 online resource (506 p.)
 Form of item
 online
 Isbn
 9781316170540
 Media category
 computer
 Media type code
 c
 Specific material designation
 remote
 System control number

 (CKB)2610000000004895
 (EBL)1771328
 (SSID)ssj0000462141
 (PQKBManifestationID)11288160
 (PQKBTitleCode)TC0000462141
 (PQKBWorkID)10399862
 (PQKB)10094199
 (SSID)ssj0001347801
 (PQKBManifestationID)12603809
 (PQKBTitleCode)TC0001347801
 (PQKBWorkID)11363716
 (PQKB)10579603
 (UkCbUP)CR9780511563928
 (MiAaPQ)EBC1771328
 (EXLCZ)992610000000004895
 Label
 Liquid metals : concepts and theory, N..H. March, (electronic resource)
 Note
 Description based upon print version of record
 Bibliography note
 Includes bibliographical references (p. 471486) and index
 Carrier category
 online resource
 Carrier category code
 cr
 Content category
 text
 Content type code
 txt
 Contents

 Cover; Halftitle; Title; Copyright; Contents; Preface; 1 Outline; 2 Pair correlation function and structure factor of ions; 2.1 Liquid structure factor; 2.2 OrnsteinZernike direct correlation function; 3 Thermodynamics; 3.1 Simple monatomic fluids; 3.2 Approximate methods; 3.3 Simple liquid metals; 3.4 Specifics; 3.5 Onecomponent plasma as reference liquid; 4 Electron screening and effective ionion interactions; 4.1 Screening of impurity centre in electron liquid; 4.2 Lindhard dielectric function; 4.3 Introduction of exchange and correlation
 4.4 Effective ionion interactions in simple (sp) metals4.5 Structure factor of alkali metals modelled in terms of onecomponent plasma; 5 Interionic forces and structural theories; 5.1 Force equation; 5.2 Simple structural theories; 5.3 Refined structural theories: factorization of triplet correlations; 5.4 Inversion of structure factor to yield effective interionic pair potentials; 6 Statistical mechanics of inhomogeneous systems and freezing theory; 6.1 Singleparticle density related to direct correlation function; 6.2 Freeenergy difference between homogeneous and periodic phases
 6.3 Relation to the hypernettedchain method6.4 Verlet''s rule related to Lindemann''s law of melting; 6.5 Cluster expansion and density functional theory; 6.6 Other approximations; 6.7 Applications; 6.8 Correlation of melting temperature and vacancy formation energy; 6.9 Supercooling of liquid Rb; 7 Electronic and atomic transport; 7.1 WiedemannFranz law and Lorenz number; 7.2 Exact resistivity formula for finiterange spherical potential; 7.3 Weak scattering theory of electrical resistivity; 7.4 Hall coefficient; 7.5 Atomic transport; generalized StokesEinstein relation
 7.6 Selfdiffusion related to shear viscosity at the melting temperature8 Hydrodynamic limits of correlation functions and neutron scattering; 8.1 Selfmotion in liquids and incoherent neutron scattering; 8.2 Frequency spectrum (or spectral function) g(co); 8.3 Van Hove dynamical structure factor S(k, CD); 8.4 Friction constant theory of transport; 8.5 Observation of collective modes; 8.6 HubbardBeeby theory; 8.7 Generalized shear viscosity in liquid Rb; 8.8 Transport in supercooled liquid Rb; 9 Critical behaviour; 9.1 Concept of order parameter
 9.2 Liquidvapour critical point: a secondorder phase transition9.3 OrnsteinZernike theory of static structure; 9.4 Predictions from more general equation of state; 9.5 Critical constants of fluid alkali metals; 9.6 Spinodal curves; 9.7 Dynamics of critical behaviour; 10 Electron states, including critical region; 10.1 Electron states in simple sp metals; 10.2 Electronic structure of nonsimple liquid metals; 10.3 Partition function of a liquid metal; 10.4 Electron states in expanded liquid Hg; 10.5 Band model for electronic structure of expanded liquid caesium; 10.6 Optical properties
 11 Magnetism of normal and especially of expanded liquid metals
 Dimensions
 unknown
 Extent
 1 online resource (506 p.)
 Form of item
 online
 Isbn
 9781316170540
 Media category
 computer
 Media type code
 c
 Specific material designation
 remote
 System control number

 (CKB)2610000000004895
 (EBL)1771328
 (SSID)ssj0000462141
 (PQKBManifestationID)11288160
 (PQKBTitleCode)TC0000462141
 (PQKBWorkID)10399862
 (PQKB)10094199
 (SSID)ssj0001347801
 (PQKBManifestationID)12603809
 (PQKBTitleCode)TC0001347801
 (PQKBWorkID)11363716
 (PQKB)10579603
 (UkCbUP)CR9780511563928
 (MiAaPQ)EBC1771328
 (EXLCZ)992610000000004895
Subject
Genre
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